Legal claims defining the scope of protection. Each claim is shown in both the original legal language and a plain English translation.
1. One or more non-transitory computer-readable media (NTCRM) including program code, wherein execution of the program code by one or more processors of a computer system is to cause the computer system to: identify a trigger to generate a hot link; and in response to detection of the trigger, determine an action to be performed upon activation of the hot link based on the trigger, wherein activation of the hot link by individual user devices of a set of user devices is to cause the individual user devices to execute program code to perform the action; generate a hot link message to include the determined action and instructions for rendering and displaying the hot link at each of the set of user devices; and control transmission of the hot link message to the set of user devices.
This invention relates to a system for dynamically generating and distributing hot links (interactive links) to multiple user devices based on detected triggers. The problem addressed is the need for a flexible, automated way to create and disseminate actionable links that can perform specific functions when activated, without requiring manual configuration for each user device. The system uses one or more non-transitory computer-readable media storing program code that, when executed by a computer system, performs several functions. First, it identifies a trigger event that prompts the generation of a hot link. Upon detecting this trigger, the system determines an action to be executed when the hot link is activated by any user device in a predefined set. The action could include launching an application, opening a specific file, or performing a predefined task. Next, the system generates a hot link message containing the determined action and instructions for rendering and displaying the hot link on each user device. This message ensures consistent behavior across all devices. Finally, the system controls the transmission of this hot link message to the set of user devices, enabling them to execute the specified action when the hot link is activated. The approach allows for centralized management of hot links, reducing the need for individual device configurations and ensuring uniform functionality.
2. The one or more NTCRM of claim 1 , wherein the individual user devices are second user devices, and execution of the program code is to cause the computer system to: provide a user interface to a first user device to be rendered and displayed by the first user device, the user interface comprising one or more graphical control elements to control selection of users associated with the set of second user devices; and control receipt, from the first user device, of a request to generate a hot link along with identification information of the set of second user devices to receive the hot link.
This invention relates to a system for managing networked temperature control and remote monitoring (NTCRM) devices, specifically focusing on user device interactions. The system addresses the challenge of efficiently distributing and managing access to shared resources or functionalities among multiple user devices in a networked environment. The invention provides a method for a computer system to facilitate the creation and distribution of a "hot link" to a set of second user devices, where the hot link enables access to specific functionalities or data. The system includes a user interface rendered on a first user device, which allows a user to select and identify a set of second user devices that will receive the hot link. Upon receiving a request from the first user device, the system generates the hot link and associates it with the identified set of second user devices, enabling controlled access to the linked resource or functionality. The system ensures that only the designated second user devices can utilize the hot link, enhancing security and access management in networked environments. The invention improves user experience by streamlining the process of sharing access to resources among multiple devices while maintaining control over who can access the shared content.
3. The one or more NTCRM of claim 2 , wherein the information of the set of user devices comprises a selection of one or more users associated with the set of user devices or a selection of a group of users associated with the set of user devices.
This invention relates to network traffic control and resource management (NTCRM) systems for optimizing data transmission in communication networks. The problem addressed is the inefficient allocation of network resources when managing traffic from multiple user devices, leading to suboptimal performance and user experience. The invention describes a network traffic control and resource management system that processes information about a set of user devices to improve data transmission efficiency. The system includes a processor and a memory storing instructions that, when executed, cause the processor to perform operations. These operations include receiving information about the set of user devices, where the information includes a selection of one or more specific users associated with the devices or a selection of a group of users associated with the devices. The system then determines a traffic control policy based on this information and applies the policy to manage network traffic and allocate resources accordingly. The selection of users or user groups allows the system to prioritize or restrict traffic based on user identity or group membership, enabling more granular control over network resources. This approach enhances network performance by dynamically adjusting traffic policies to meet the needs of specific users or groups, improving efficiency and user experience. The system may also include additional features, such as monitoring network conditions and adjusting policies in real-time to maintain optimal performance.
4. The one or more NTCRM of claim 1 , wherein execution of the program code is to cause the computer system to: generate the hot link message to include an indication about the hot link, wherein the indication about the hot link comprises text, multimedia, or a link pointing to a resource that includes information about the hot link.
This invention relates to network traffic control and resource management (NTCRM) systems that handle hot link messages in a computer network. The problem addressed is the need to provide users with clear, informative indications about hot links, which are high-traffic or critical network connections that may require special handling or attention. The invention improves upon existing systems by enhancing the way hot link messages are generated and presented to users or other network components. The system generates a hot link message that includes an indication about the hot link, which can be in the form of text, multimedia, or a link pointing to a resource containing detailed information. This allows users or network administrators to quickly understand the nature of the hot link, whether it involves high bandwidth usage, security concerns, or other critical factors. The indication can be customized to provide relevant details, such as the source or destination of the hot link, its priority level, or recommended actions. By incorporating multimedia or external resources, the system ensures that the information is both accessible and comprehensive, improving decision-making and network management efficiency. This approach enhances transparency and control over network traffic, helping to optimize performance and security.
5. The one or more NTCRM of claim 4 , wherein execution of the program code is to cause the computer system to: generate the hot link message as a Short Message Service (SMS) message, an instant messaging (IM) message, or an email message.
This invention relates to a computer system for generating and transmitting a hot link message, which is a type of message containing a hyperlink that, when activated, triggers a specific action or redirects the recipient to a designated resource. The system addresses the need for efficient and flexible communication of actionable links in digital messaging platforms, ensuring compatibility across different messaging formats. The computer system includes one or more non-transitory computer-readable media (NTCRM) storing program code. When executed, the program code causes the system to generate a hot link message formatted as a Short Message Service (SMS) message, an instant messaging (IM) message, or an email message. This ensures the message can be delivered and displayed correctly across various messaging protocols and platforms, enhancing accessibility and user engagement. The system may also include additional features, such as generating the hot link message in response to a user request or an automated trigger, and transmitting the message to a recipient device via a network. The hot link message may include metadata or tracking information to monitor its delivery and interaction, improving communication analytics. The invention aims to streamline the creation and distribution of actionable links in digital communications, supporting seamless user interactions across different messaging environments.
6. The one or more NTCRM of claim 1 , wherein execution of the program code is to cause the computer system to: identify a user interface element for activation of the hot link prior to generation of the hot link; and generate the hot link message to include assignment information, the assignment information to assign the hot link to the identified user interface element.
This invention relates to computer systems and user interface management, specifically improving the creation and assignment of hot links in graphical user interfaces. The problem addressed is the lack of flexibility and automation in assigning hot links to specific user interface elements, which can lead to inefficiencies in user interaction and system performance. The invention describes a method for generating and assigning hot links in a computer system. A hot link is a user interface element that, when activated, triggers a specific action or navigation. The system identifies a user interface element that will be used to activate the hot link before the hot link is generated. This identification process ensures that the hot link is properly assigned to the correct element in the interface. The system then generates a hot link message that includes assignment information, which specifies the exact user interface element to which the hot link should be assigned. This assignment information ensures that the hot link is correctly linked to the intended element, improving user experience and system functionality. The method may be implemented as part of a larger system for managing user interfaces, where hot links are dynamically generated and assigned based on user interactions or system states. The invention enhances the efficiency and accuracy of hot link management in computer systems.
7. The one or more NTCRM of claim 1 , wherein the hot link comprises instructions to obtain and render a web page in a web browser, execute executable instructions of an application program, or adjust radiofrequency circuitry to obtain and display broadcasted content.
This invention relates to a system for managing and executing networked content retrieval modules (NTCRM) that facilitate access to various types of digital content. The system addresses the challenge of efficiently retrieving and presenting content from different sources, such as web pages, application programs, or broadcasted media, through a unified interface. The NTCRM includes a hot link mechanism that enables dynamic content retrieval and rendering. The hot link can be configured to perform specific actions, such as directing a web browser to fetch and display a web page, launching an application program to execute its instructions, or adjusting radiofrequency circuitry to tune into and display broadcasted content. This modular approach allows for flexible content delivery, ensuring compatibility with diverse content sources and user devices. The system enhances user experience by streamlining content access and reducing the need for manual navigation or configuration. By integrating multiple content retrieval methods into a single framework, the invention simplifies the process of accessing digital content across different platforms and formats.
8. The one or more NTCRM of claim 1 , wherein execution of the program code is to cause the computer system to: determine a location for each user device of the set of user devices; and generate the hot link message to include the location of each user device.
This invention relates to a system for managing network traffic control and resource management (NTCRM) in a computer network. The system addresses the challenge of efficiently routing and managing data traffic among multiple user devices connected to the network, particularly in scenarios where real-time location tracking and dynamic routing are required. The system includes a computer system configured to execute program code that performs several functions. First, it determines the physical or logical location of each user device within a set of connected devices. This location data may be derived from network coordinates, IP addresses, or other positioning mechanisms. Second, the system generates a hot link message—a type of communication packet or signal—that incorporates the location information of each user device. This message can be used to optimize routing, load balancing, or other network operations by dynamically adjusting traffic flow based on device locations. The system may also include additional features, such as analyzing network conditions to prioritize traffic, dynamically rerouting data to avoid congestion, or integrating with existing network management protocols. The inclusion of location data in the hot link message enables real-time adjustments, improving efficiency and reducing latency in data transmission. This approach is particularly useful in large-scale networks, such as cloud computing environments, IoT deployments, or distributed systems where dynamic resource allocation is critical.
9. The one or more NTCRM of claim 1 , wherein, to control transmission of the hot link message to the set of user devices, execution of the program code is to cause the computer system to: instruct a network interface of the computer system to send the hot link message to the set of user devices over a wired or wireless network.
This invention relates to network communication systems, specifically methods for controlling the transmission of hot link messages to user devices. The problem addressed is the efficient and reliable delivery of hot link messages, which are typically urgent or time-sensitive notifications, to a designated set of user devices over a network. The invention involves a computer system executing program code to manage the transmission of hot link messages. The system includes one or more network traffic control and routing modules (NTCRM) that handle the routing and control of network traffic. These modules are responsible for determining the appropriate path and method for delivering messages to user devices, ensuring that the messages are transmitted in a timely and secure manner. To control the transmission of hot link messages, the computer system instructs a network interface to send the messages to the set of user devices over either a wired or wireless network. The network interface facilitates the actual transmission of data packets, ensuring compatibility with different network types and protocols. The system may also include additional modules for managing network resources, optimizing transmission paths, and handling potential network disruptions to maintain reliable communication. The invention aims to improve the efficiency and reliability of hot link message delivery by leveraging network traffic control and routing modules to dynamically adjust transmission parameters based on network conditions. This ensures that urgent messages reach their intended recipients promptly, even in varying network environments.
10. A computer system to be employed as a server, the computer system comprising: network interface circuitry to: receive, from a first user device, a request to generate a hot link along with information of a set of second user devices to receive the hot link, and transmit a hot link message to the set of second user devices; and processor circuitry communicatively coupled with the network interface circuitry, the processor circuitry communicatively coupled with the network interface circuitry, the processor circuitry is to: in response to detection of a trigger, determine an action to be performed upon activation of the hot link, wherein activation of the hot link by individual second user devices of the set of second user devices is to cause the individual second user devices to execute program code to perform the action, and generate the hot link message to include the determined action and instructions for rendering and displaying the hot link at each of the set of user devices.
This invention relates to a server-based system for generating and distributing hot links to multiple user devices. The system addresses the problem of efficiently coordinating actions across distributed devices by enabling a centralized server to create and manage hot links that, when activated, trigger predefined actions on recipient devices. The server receives a request from a first user device to generate a hot link, along with a list of second user devices that should receive it. The server then processes this request, determines the action to be performed upon activation of the hot link, and generates a hot link message containing the action and rendering instructions. The message is transmitted to the specified second user devices. When any of these devices activates the hot link, the embedded program code executes the predefined action. This approach allows for synchronized or coordinated actions across multiple devices without requiring direct communication between them, simplifying the implementation of collaborative or distributed tasks. The system ensures that the hot link is properly displayed and functional on each recipient device, enhancing user experience and reliability.
11. The computer system of claim 10 , wherein the processor circuitry is to: identify a user interface element for activation of the hot link prior to generation of the hot link; and generate the hot link message to include assignment information, the assignment information to assign the hot link to the identified user interface element.
This invention relates to computer systems that generate and manage hot links, which are interactive elements that trigger actions when activated. The problem addressed is the need for a more efficient and flexible way to create and assign hot links to specific user interface elements in a graphical user interface (GUI). Traditional methods often require manual configuration or lack dynamic assignment capabilities, leading to inefficiencies in user interaction and system responsiveness. The system includes processor circuitry that identifies a user interface element before generating a hot link. The processor then creates a hot link message containing assignment information, which links the hot link to the identified user interface element. This ensures that the hot link is directly associated with the correct element, improving accuracy and reducing the need for post-generation adjustments. The system may also include a display device to present the GUI with the assigned hot link, allowing users to interact with the element seamlessly. The hot link message may further include additional data, such as activation conditions or target actions, to enhance functionality. This approach streamlines the creation and management of interactive elements in a GUI, improving user experience and system efficiency.
12. The computer system of claim 10 , wherein the network interface circuitry is to: transmit program code to the first user device, the program code to be executed by the first user device to generate a user interface, the user interface to be rendered and displayed by the first user device, the user interface comprising one or more graphical control elements to control selection of users associated with the set of second user devices, wherein the information of the set of second user devices comprises a selection of one or more users associated with the set of second user devices or a selection of a group of users associated with the set of second user devices.
This invention relates to a computer system for managing user interactions in a networked environment. The system addresses the challenge of efficiently selecting and managing groups of users or individual users for communication or collaboration purposes. The system includes network interface circuitry that transmits program code to a first user device. When executed, this code generates a user interface on the first user device, which is then rendered and displayed. The interface includes graphical control elements that allow a user to select other users associated with a set of second user devices. The selection can be based on individual users or predefined groups of users. The system ensures that the information related to the set of second user devices, such as user identities or group memberships, is accurately captured and processed for further communication or collaboration tasks. This approach simplifies user selection and enhances the efficiency of multi-user interactions in networked applications.
13. The computer system of claim 10 , wherein the hot link comprises instructions to obtain and render a web page in a web browser, execute executable instructions of an application program, or adjust radiofrequency circuitry to obtain and display broadcasted content.
This invention relates to a computer system that processes and executes hot links, which are interactive elements that trigger specific actions when activated. The system addresses the need for versatile and efficient handling of different types of hot links, which may include web-based, application-based, or hardware-based actions. The hot link contains instructions that, when executed, can perform one or more of the following: obtain and render a web page in a web browser, execute executable instructions of an application program, or adjust radiofrequency circuitry to obtain and display broadcasted content. The system dynamically interprets the hot link instructions and routes them to the appropriate component, such as a web browser, an application, or hardware circuitry, to perform the desired action. This allows for seamless integration of different types of interactive content within a unified system, improving user experience and functionality. The invention ensures compatibility with various types of hot links, enabling flexible and efficient execution of linked actions across different platforms and devices.
14. The computer system of claim 10 , wherein the processor circuitry is to: generate the hot link message to include an indication about the hot link, wherein the indication about the hot link comprises text, multimedia, or a link pointing to a resource that includes information about the hot link.
This invention relates to computer systems that manage and display hot links, which are interactive elements in digital content that trigger actions when selected. The problem addressed is the lack of informative or engaging content associated with hot links, which can lead to user confusion or reduced interaction. The system enhances hot links by embedding additional information directly within the link or pointing to external resources that provide context, instructions, or multimedia about the link's purpose or destination. The processor circuitry generates a hot link message that includes an indication about the hot link, which can be text, multimedia (such as images or videos), or a link to a resource containing detailed information. This allows users to preview or understand the link's function before interacting with it, improving usability and engagement. The system may also dynamically update the indication based on user behavior or system conditions, ensuring relevance and accuracy. This approach is particularly useful in applications like web browsers, document editors, or collaborative platforms where clear and interactive link management is critical.
15. The computer system of claim 10 , wherein the processor circuitry is to: generate the hot link message as a Short Message Service (SMS) message for transmission over a cellular communication network, or generate the hot link message as an instant messaging (IM) message for transmission over a communications network.
This invention relates to a computer system for generating and transmitting hot link messages, which are messages containing embedded hyperlinks that allow recipients to quickly access specific content or services. The system addresses the challenge of efficiently delivering interactive messages to users across different communication networks, ensuring seamless access to linked resources. The computer system includes processor circuitry configured to generate hot link messages in multiple formats. Specifically, the system can produce these messages as Short Message Service (SMS) messages for transmission over cellular communication networks, or as instant messaging (IM) messages for transmission over broader communications networks. This flexibility allows the system to adapt to various messaging platforms and user preferences, ensuring compatibility with different devices and network types. The hot link messages are designed to include embedded hyperlinks that, when activated by the recipient, direct them to a specified online resource, such as a webpage, application, or service. The system ensures that these links are properly formatted and functional within the constraints of the chosen messaging format, whether SMS or IM. Additionally, the system may include features to track message delivery, monitor link engagement, and provide analytics on user interactions with the hot link messages. By supporting multiple messaging formats, the system enhances user accessibility and engagement, making it suitable for applications in marketing, customer service, notifications, and other interactive communication scenarios. The invention improves upon prior systems by offering a unified approach to hot link message delivery across diverse communication channels.
16. The computer system of claim 10 , wherein the processor circuitry is to: determine a location for each second user device of the set of second user devices; and generate the hot link message to include the location of each second user device.
This invention relates to a computer system for managing communication between user devices in a network, particularly for sharing location information. The system addresses the problem of efficiently distributing location data among multiple devices in a way that minimizes latency and bandwidth usage while ensuring accurate and up-to-date positioning. The computer system includes processor circuitry configured to identify a set of second user devices associated with a first user device. The processor determines the current location of each second user device and generates a hot link message that includes the location data for each device. This message is then transmitted to the first user device, allowing it to access the real-time positions of the associated devices. The system may also prioritize location updates based on factors such as device proximity or network conditions to optimize performance. The invention further includes mechanisms for dynamically adjusting the frequency of location updates and handling scenarios where devices move in or out of range. By integrating these features, the system ensures that the first user device receives timely and relevant location information without unnecessary data transmission. This approach is particularly useful in applications like group tracking, emergency response coordination, or collaborative navigation.
17. The computer system of claim 10 , wherein the network interface circuitry is to transmit the hot link message to the set of user devices over a wired or wireless network.
A computer system is designed to facilitate communication between a central server and multiple user devices over a wired or wireless network. The system includes network interface circuitry that transmits a hot link message to a set of user devices. This hot link message is a type of data packet or signal that triggers an action or response on the receiving devices, such as opening a specific application, displaying a notification, or initiating a data transfer. The network interface circuitry supports both wired and wireless communication protocols, ensuring compatibility with various network infrastructures. The system may also include processing circuitry to generate or modify the hot link message before transmission, ensuring it meets the required format or security standards. The user devices, upon receiving the hot link message, execute predefined actions based on the message content, enabling seamless interaction between the server and the devices. This technology addresses the need for efficient and reliable communication in distributed systems, particularly in scenarios where real-time or automated responses are required. The system enhances connectivity and responsiveness in networked environments, improving user experience and operational efficiency.
18. One or more non-transitory computer-readable media (NTCRM) including program code, wherein execution of the program code by one or more processors of a user device is to cause the user device to: control receipt of a hot link message comprising a hot link and assignment information, the assignment information to assign the hot link to a graphical control element (GCE), and the hot link comprising instructions to perform an action and instructions for rendering and displaying the hot link; generate a graphical user interface (GUI) to include the GCE to which the hot link is assigned according to the assignment information; and in response to activation of the GCE, execute the instructions of the hot link to perform the action.
This invention relates to a system for dynamically assigning and executing interactive hot links within a graphical user interface (GUI) on a user device. The problem addressed is the need for a flexible and efficient way to embed and activate interactive elements within a GUI without requiring pre-programmed or hardcoded functionality. The solution involves a non-transitory computer-readable medium storing program code that, when executed by a user device, enables the device to receive a hot link message containing a hot link and assignment information. The hot link includes instructions for performing an action and rendering/displaying the hot link, while the assignment information specifies which graphical control element (GCE) in the GUI the hot link should be assigned to. The program code then generates a GUI incorporating the assigned GCE. When the user activates the GCE, the device executes the hot link's instructions to perform the specified action. This approach allows dynamic, runtime assignment of interactive functionality to GUI elements, enabling flexible and context-aware user interactions without prior configuration. The system supports real-time updates and customization of GUI behavior based on external inputs or user actions.
19. The one or more NTCRM of claim 18 , wherein the GUI is a first GUI, and execution of the program code is to cause the user device to: generate a second GUI comprising a user selection GCE and a submission GCE, the user selection GCE to control selection of a set of other user devices to be provided with a hot link, and the submission GCE to control submission of the set of other user devices; and control transmission of another hot link message that includes an indication of the selected set of other user devices in response to selection of the submission GCE.
This invention relates to a graphical user interface (GUI) system for managing hot links in a networked environment. The problem addressed is the need for an efficient way to select and distribute hot links to multiple user devices, ensuring proper access control and user interaction. The system involves a user device executing program code to generate a first GUI that includes a graphical control element (GCE) for initiating the creation of a hot link. The hot link is a reference that allows users to access specific content or functionality. The system also generates a second GUI, which includes a user selection GCE for choosing a set of other user devices to receive the hot link and a submission GCE to confirm the selection. When the submission GCE is selected, the system transmits a hot link message containing the selected set of user devices, enabling the hot link to be distributed to the specified recipients. This ensures that only authorized devices receive the hot link, enhancing security and user control. The system may also include additional features such as authentication mechanisms to verify user identities before granting access to the hot link. The overall solution improves user experience by simplifying the process of sharing hot links while maintaining security and control over access.
20. The one or more NTCRM of claim 19 , wherein the second GUI comprises: a positive opinion GCE to control submission of a positive opinion of a content item; and a negative opinion GCE to control submission of a negative opinion of the content item.
This invention relates to a graphical user interface (GUI) system for submitting opinions on digital content items, such as documents, images, or media files. The system addresses the need for efficient and intuitive user feedback mechanisms in digital platforms, particularly where users must quickly express approval or disapproval of content. The GUI includes a primary interface for displaying content items and a secondary interface for submitting opinions. The secondary interface contains two distinct graphical control elements (GCEs): a positive opinion GCE for submitting approval of a content item and a negative opinion GCE for submitting disapproval. These controls allow users to provide binary feedback with minimal interaction, improving usability and reducing decision latency. The system may integrate with content management platforms, social media, or collaborative tools where user opinions influence content visibility, ranking, or moderation. The positive and negative opinion GCEs may be buttons, toggles, or other interactive elements, ensuring clear and immediate feedback submission. The design prioritizes simplicity and accessibility, ensuring users can quickly convey their opinions without navigating complex menus or forms. This approach enhances user engagement and content moderation efficiency in digital environments.
21. The one or more NTCRM of claim 18 , wherein execution of the instructions of the hot link is to cause the user device to: obtain and render a web page in a web browser implemented by the user device; execute executable instructions of an application program, wherein the executable instructions of the application program are stored by a memory device of the user device, or the executable instructions of the application program are to be obtained by the user device over a communication network; or adjust radio frequency circuitry of the user device to obtain broadcasted content for display.
This invention relates to a system for executing hot links on a user device, addressing the need for seamless integration between web-based and native application functionalities. The system involves a network traffic control and routing module (NTCRM) that processes hot links, which are embedded commands or instructions triggered by user interactions. When a hot link is activated, the NTCRM directs the user device to perform one of several actions. First, it may obtain and render a web page in a web browser running on the device. Alternatively, it may execute instructions of an application program stored locally on the device or downloaded over a network. Additionally, the system can adjust the device's radio frequency circuitry to receive and display broadcasted content, such as streaming media or other data. The NTCRM ensures that the appropriate action is taken based on the hot link's configuration, enabling dynamic and context-aware interactions between web content and device capabilities. This approach enhances user experience by reducing the need for manual navigation between different applications or interfaces.
22. The one or more NTCRM of claim 18 , wherein the GUI comprises an indication about the hot link, wherein the indication about the hot link comprises text, multimedia, or a link pointing to a resource that includes information about the hot link.
This invention relates to a graphical user interface (GUI) system for displaying and managing network traffic control rules (NTCRMs) in a network environment. The problem addressed is the lack of clear, user-friendly indicators in GUIs that help users understand and interact with network traffic control rules, particularly those involving hot links—dynamic or frequently accessed network paths. The GUI includes a visual representation of one or more NTCRMs, where each NTCRM defines rules for managing network traffic. The GUI provides an indication about a hot link, which is a network path or resource that is frequently accessed or dynamically updated. This indication can be presented as text, multimedia (such as images or videos), or a clickable link that directs users to a resource containing detailed information about the hot link. The indication helps users quickly identify and interact with hot links, improving network management efficiency. The system may also include additional features, such as the ability to modify or prioritize NTCRMs directly from the GUI, ensuring that network traffic is optimized based on real-time conditions. The invention enhances user experience by providing clear, actionable insights into network traffic control, reducing the complexity of managing dynamic network environments.
Unknown
December 15, 2020
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